Magnetic Field Gradients
Strong local magnetic field gradients can create selective forces on target particles or species, opening new opportunities for material separation.
Technology
Advanced separation concepts built on magnetics, transport, and materials physics
ReSource Materials develops technologies that use magnetic-field effects and particle-level behavior to enable selective recovery from difficult mixed-material streams.
Technology Approach
Our work focuses on advanced magnetic separation strategies for extracting valuable materials from heterogeneous feedstocks. These approaches are informed by magnetism, particle transport, and separation science, with the goal of improving selectivity and process efficiency.
Targeted systems may involve high-gradient magnetic separation, selective capture mechanisms, and process architectures designed to bridge laboratory validation with practical scale-up.
Selective Recovery
By leveraging differences in magnetic response, particle properties, and process conditions, separation systems can be tailored for specific feed compositions.
Scalability
ReSource Materials is interested in process designs that can move from bench-scale validation toward pilot-scale implementation.
Current Focus
Current efforts are centered on applications relevant to critical minerals, battery recycling, rare earth recovery, and material recovery from complex waste streams such as electronic waste and industrial byproducts.
This website presents a high-level overview. More detailed technical information can be shared in the context of research, collaboration, or partnership discussions.